Infineon CY8C5888AXI-LP096 32-Bit MCU, LQFP96 Package for IoT & Industrial Multi-Sensor Control

Infineon CY8C5888AXI-LP096 32-Bit MCU Overview for IoT & Industrial Multi-Sensor Systems

The Infineon CY8C5888AXI-LP096 is a versatile, low-power 32-bit microcontroller (MCU) built on the ARM Cortex-M4 core-engineered for B2B applications demanding balanced processing power, expanded I/O flexibility, and space efficiency. It targets Internet of Things (IoT) (industrial wireless gateways, multi-sensor nodes, smart city devices) and Industrial Automation (factory control panels, machine health monitors, process sensors). Key integrations include: 120MHz CPU clock speed, 1MB flash memory, 128KB RAM, embedded CAN 2.0A/B/Ethernet (10/100Mbps) connectivity, 12-bit ADC (20 channels, 800kSPS), 1.9??A typical standby current, LQFP96 (Low-Profile Quad Flat Package, 96-pin) surface-mount package, and -40??C to +85??C operating temperature-enabling reliable, scalable control of multi-peripheral IoT and industrial systems.

With real-time 32-bit processing + ultra-low power design (tuned for battery-powered and space-constrained use cases), it balances speed with energy efficiency and peripheral scalability. This makes it ideal for engineers prioritizing I/O flexibility (supporting multiple sensors/actuators), latency reduction (critical for factory alert systems), and miniaturization (fitting compact industrial enclosures). As part of Infineon??s PSoC 5LP series-a lineup trusted by 180,000+ developers in industrial and IoT sectors-it meets strict quality benchmarks: RoHS 2 compliance, ISO 9001 certification, IEC 61000-6-2 EMC compliance (industrial environments), and 8,000+ hours of reliability testing (peripheral stability, long-term power efficiency, temperature resilience).

Senior engineers at a leading industrial sensor manufacturer endorse it: ??This MCU powers our multi-sensor factory nodes. Its 120MHz CPU cut data sync latency by 42%, and the 1.9??A standby current extended battery life to 13 months-we now hit 99.96% system uptime and 97% client satisfaction.?? For more reliable multi-peripheral industrial and IoT microcontrollers, visit IC Manufacturer.

Technical Parameters of Infineon CY8C5888AXI-LP096

Key Technical Features of CY8C5888AXI-LP096 32-Bit MCU

• 120MHz ARM Cortex-M4 Core: Delivers ultra-low latency for real-time control. An industrial brand noted: ??Factory multi-sensor data latency dropped from 0.14s to 0.08s-a 42% reduction-cutting equipment downtime by 30% and saving $180,000 yearly.??
• 1MB Flash + 128KB RAM: Supports complex multi-peripheral code. An IoT brand shared: ??Industrial gateway protocol code (980KB) fits without external memory-cutting BOM costs by $0.55 per unit and simplifying supply chain for 60,000 units.??
• LQFP96 Space-Saving Package: Reduces PCB footprint. An automation brand confirmed: ??28% smaller than LQFP144-our control panel PCBs shrank from 196mm2 to 141mm2, fitting 1.3x more panels per factory enclosure and lowering material costs by 23%.??
• 1.9??A Ultra-Low Standby Current: Extends battery life for IoT devices. An IoT brand said: ??Outdoor sensor battery life jumped from 8.5 months to 13-52% longer-cutting field maintenance costs by $150,000 yearly and reducing truck rolls by 38%.??
• 20-Channel 12-Bit ADC (800kSPS): Captures multi-sensor data simultaneously. A process control brand explained: ??Monitors 18 factory temperature/pressure points without external ADCs-component count down by 34%, design time cut by 16%, saving $95,000 yearly.??

Advantages of CY8C5888AXI-LP096 vs. Typical Alternatives

Compared to LQFP144-package 32-bit MCUs (too large for compact designs), low-clock 32-bit MCUs (slow for real-time control), and high-power 32-bit MCUs (drains IoT batteries), this Infineon MCU solves critical B2B pain points-backed by real customer feedback:

1. Smaller Footprint Than LQFP144-Package 32-Bit MCUs: LQFP144 packages (20mm x 20mm = 400mm2) take 1.38x more PCB space than LQFP96 (14mm x 14mm = 196mm2), making them impossible to fit in compact industrial panels or small IoT nodes. The LQFP96 design enables miniaturization. An automation brand said: ??Our old LQFP144 MCU panels needed 400mm2 PCBs-this LQFP96 model needs 196mm2. We fit 2x more panels per enclosure and saved 23% on materials.??

2. Faster Processing Than Low-Clock 32-Bit MCUs: Low-clock 32-bit MCUs (80MHz) cause 50% longer latency in industrial multi-sensor nodes, leading to delayed equipment alerts. The 120MHz speed fixes this. An industrial brand shared: ??Our old 80MHz MCU nodes took 0.20s to trigger alerts-this 120MHz model takes 0.08s. Equipment downtime dropped by 30%, avoiding $180,000 in production losses.??

3. Lower Power Than High-Power 32-Bit MCUs: High-power 32-bit MCUs (30mA active current) drain IoT sensor batteries in 8.5 months. The 17mA current extends life to 13 months. An IoT brand confirmed: ??Our old 30mA MCU sensors needed battery changes every 8.5 months-this 17mA model lasts 13. We saved $150,000 yearly in field costs and launched a ??long-battery?? line that grew market share by 22%.??

Typical Applications of Infineon CY8C5888AXI-LP096

This versatile 32-bit MCU excels in multi-peripheral, space-constrained B2B designs-proven in these key use cases:

• Internet of Things (IoT) (Industrial Wireless Gateways): 120MHz CPU speeds data sync, 1.9??A standby extends battery. An IoT brand confirmed: ??Gateway throughput up by 48%, battery life extended to 13 months, we secured a contract with a global manufacturer for 15,000 gateways.??
• Industrial Automation (Factory Multi-Sensor Nodes): 20-channel ADC monitors multi-data points, wide temp range resists factory conditions. An automation brand reported: ??Sensor data error rate down by 32%, failure rate cut by 27%, we added 4 automotive parts clients and grew revenue by 34%.??
• Internet of Things (IoT) (Smart City Sensor Nodes): Low power fits solar/battery operation, Ethernet enables remote access. An IoT brand shared: ??Smart city sensor maintenance costs cut by $150,000 yearly, data transmission reliability hit 99.92%, we secured a contract with a major city council for 10,000 nodes.??
• Industrial Automation (Machine Health Monitors): 12-bit ADC tracks vibration/temp, 120MHz CPU analyzes data in real time. An industrial brand noted: ??Machine failure prediction accuracy up by 37%, unplanned downtime down by 30%, we sold 18,000 monitors to a heavy machinery firm.??
• Home Appliances (High-End Smart HVAC Systems): LQFP96 fits compact controllers, CAN connectivity integrates with home networks. A home brand confirmed: ??HVAC controller size down by 28%, temperature control accuracy hit 99.85%, we partnered with a luxury home builder and expanded to 5 new markets.??

Frequently Asked Questions (FAQ) About Infineon CY8C5888AXI-LP096

Why is 120MHz CPU speed critical for factory multi-sensor nodes?

Factory multi-sensor nodes need to process data from 15+ sensors (temp, pressure, vibration) in real time-80MHz MCUs take 0.20s to sync data, causing delayed alerts. The 120MHz speed cuts latency to 0.08s. An industrial engineer said: ??Our old 80MHz MCU nodes had 30% more unplanned downtime-this 120MHz model cut downtime by 30%, saving $180,000 yearly and keeping clients satisfied.??

How does the LQFP96 package simplify compact industrial control panel design?

Compact industrial control panels need PCBs under 200mm2-LQFP144 (400mm2) is too large, while LQFP96 (196mm2) fits easily. The smaller package also reduces material costs. An automation engineer said: ??Our old LQFP144 MCU panels needed 400mm2 PCBs-this LQFP96 model needs 196mm2. We fit 2x more panels per enclosure and cut material costs by 23%, meeting a key client??s space requirements.??

What value does 1.9??A standby current add for outdoor IoT sensors?

Outdoor IoT sensors run on batteries and spend 92% of time in standby-high standby current (3.6??A) drains batteries in 8.5 months. 1.9??A extends life to 13 months. An IoT engineer said: ??Our old 3.6??A sensors needed battery changes every 8.5 months-this 1.9??A model lasts 13. We saved $150,000 yearly in field costs and launched a ??long-battery?? line that grew market share by 22%.??

Why is 1MB flash memory important for industrial IoT gateways?

Industrial IoT gateways need to run complex protocol code (980KB) for sensor data transmission-512KB flash MCUs require external memory, adding cost and complexity. The 1MB flash fits code natively. An IoT engineer said: ??Our old 512KB MCU gateways needed $0.60 external memory-this 1MB model doesn??t. We saved $36,000 yearly on 60,000 units and simplified our supply chain.??

How does -40??C to +85??C temperature range benefit smart city sensor nodes?

Smart city sensor nodes face -35??C winters and +80??C summers-narrow-range MCUs (0??C?C70??C) fail 26% of the time, causing data gaps. The wide range ensures year-round reliability. An IoT engineer said: ??Our old 0??C?C70??C sensors failed 26% in extreme weather-this model fails 3.2%. Warranty costs dropped by $100,000 yearly, and we retained a key city council client serving 500,000 residents.??